Industrial Training and Internship Program for Dip./ BTech Students in India

This twenty days course addresses all the main topics and trends relating to power  system protection. It provides the knowledge and guidelines needed for the design and setting of modern power system protection systems.

This course is designed for technical professionals working in transmission or distribution network operator companies, consultancy organisations, in large industries or government organisations involved in design, engineering, commissioning or maintenance of protection systems.

Why Training ?

  • Better training leads to better processes and more efficient work.
  • Having a high quality and comprehensive employee training enables you to strengthen the skills your workforce
  • By ongoing workforce training, you will enable one employee to pick up where another left off.
  • improve their quality and quatity of goods produced resulting in high productivity.
  • Build platform for maintaining smooth industrial relations.
  • Become a employee to eligible for promotion handling more responsibility.

Course Planning

Power System
Introduction to power system equipments
Introduction to Power System Protection
Protection Types
Technologies in power system protection
power system protection calculation
Protection of Transformer
Protection of Power Cables
Protection of HV Line
Protection of Busbar
Intergration of IEC 61850
Failure investigations

Expertise

Technitab delivers world-renowned testing and Commissioning to the energy
value chain, including renewables and energy management. Our expertise spans Power Generation, transmission and distribution, smart grids and sustainable
energy use, as well as energy markets and regulations.

Our Sectors

  1. Protection Training
  2. Course Rewards
  3. Study Materials
  4. Free Wi-fi Facilities

What makes us Unique

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Knowledge and innovation is core in Technitab. You will have many opportunities to develop your skills within your fields of interest and expertise. We encourage you to play an active part in your personal and career development and take on new challenges and positions when you are ready. We offer a wide array of development opportunities, on the job and through training, both internally and externally.

Siemens is a global powerhouse focusing on the areas of electrification, automation and digitalization. One of the world’s largest producers of energy-efficient, resource-saving technologies, Siemens is a leading supplier of systems for power generation and transmission as well as medical diagnosis. In infrastructure and industry solutions the company plays a pioneering role.

ABB offers a comprehensive range of high-voltage products up to
1200 kilovolts AC and 1100 kilovolts DC that help enhance the safety, reliability and efficiency of power networks while minimizing environmental impact. Our technology leadership continues to facilitate developments in areas such as ultra-high-voltage power transmission, enabling smart grids and enhancing eco-efficiency.

GE develops and markets systems, equipment and services for the
transport sector. We offer a complete range of solutions (from high-speed trains to metros, tramways and e-buses), passenger solutions, customised services (maintenance, modernisation), infrastructure, signalling and digital mobility solutions. Alstom is a world leader in integrated transport
systems.

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Protection
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Configuration
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Testing
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Commissioning

Focus Areas

Relay protection is the key to the safe operation of a power system. The functions of relay protection have been developed along with enhancements to electrical power systems and the implementation techniques developed with the related areas of science and technology. Ensuring the function of a relay to satisfy the requirements of the development of the smart grid and perform the protection task with high reliability, involves a series of key technical issues.

Logic functions are well suited to implementation using microprocessors. The implementation of logic in a relay is not new, as functions such as intertripping and auto-reclose require a certain amount of logic. However, by providing a substantial number of digital I/O and making the logic capable of being programmed using suitable off-line software, the functionality of such schemes can be enhanced or additional features provided. For instance, an overcurrent relay at the receiving end of a transformer feeder could use the temperature inputs provided to  monitor transformer winding temperature  and provide alarm or trip facilities to the operator or upstream relay, eliminating the need for a separate winding temperature relay.

Digital and numerical relays will have a self-test procedure that is detailed in the appropriate relay manual. These tests should be followed to determine if the relay is operating correctly. This will normally involve checking of the relay watchdog circuit, exercising all digital inputs and outputs and checking that the relay analogue inputs are within calibration by applying a test current or voltage.

Commissioning is the bridge from the design phase through construction and into occupancy. Its purpose is to ensure that building mechanical and electrical systems operate as intended per the owner’s project requirements (OPR).

Modules

Basic Protection Training

  • Basic block of Protection System
  • Substation Equipment, working principle, types, and selection guidelines.
  • Panels(Switchgear, Switchyard, CRP), working principle, types
    and selection guidelines..
  • Protection Units, working principle, types and selection guidelines.
  • Measuring Units,, working principle, types and selection guidelines.
  • Busbar , working principle, type and selection guidelines.

Basic Testing Instruction

  • Troubleshooting, calibration of process equipments.
  • Testing of Electromechanical Relay.
  • Testing of Numerical Relay.
  • Testing of Measuring Units..
  • Testing of Digital Signal.

Certified Protection Engineer

  • Basic industrial protection relay training
  • Troubleshooting, calibration of process equipments.
  • Panel Schematic Designing
  • On site exposure
  • Introduction to Industrial Networking and RS 232 standards
  • Fundamental of Substation Equipments
  • Principles of Protection system
  • Calculations of various faults in substation
  • Configuration of various manufacture Relays
  • Communication of Protection System
  • Testing Procedure of Protection relays
  • Intellution’ various Relay Software(Reyrolle, Sip4, Sip5, S1 AGILE, PCM 600, Easergy Studio)
  • Fundamental of Digital Signal Testing
  • Implementation of Digital Logics

Reyrolle

  • Introduction to Reyrolle Relay
  • Configuration and Testing of O/C & E/F Relay (7SR110 & 7SR120)
  • Configuration and Testing of Transformer Differential Relay (7SR242)
  • Configuration and Testing of UV/OV Relay (7SR158)
  • Creating new device file and Station
  • Extract Fault Data Record

SIPROTEC 4

  • Introduction Siprotec 4 Siemens Manufacture Relay
  • Configuration and Testing of O/C & E/F Relay (7SJ80)
  • Configuration and Testing of Transformer Differential Relay (7UT66)
  • Configuration and Testing of Distance Relay (7SA61)
  • Configuration and Testing of Busbar Differential Relay (7SS52)
  • Creating a new device file and Station
  • Extract Fault Data Record

SIPROTEC 5

  • Introduction Siprotec 5 Siemens manufacture relay
  • Configuration and Testing of O/C & E/F Relay (7SJ61)
  • Configuration and Testing of Busbar Differential Relay (7SS85))
  • Creating a new device file and Station
  • Extract Fault Data Record

MICOM

  • Introduction MICOM manufacture relays
  • Configuration and Testing of O/C & E/F Relay (P143)
  • Configuration and Testing of Transformer Differential Relay (P642)
  • Configuration and Testing of Distance Relay (P444)
  • Creating a new device file and Station
  • Extract Fault Data Record

SCHNEIDER

  • Introduction to Schneider Manufacture Relay
  • Configuration and Testing of O/C & E/F Relay (P143)
  • Configuration and Testing of Transformer Differential Relay (P642)
  • Configuration and Testing of Distance Relay (P444)
  • Creating a new device file and Station
  • Extract Fault Data Record

ABB

  • Introduction to ABB Manufature Relay
  • Configuration and Testing of O/C & E/F Relay
    (REF615)
  • Configuration and Testing of Distance Relay
  • (REL670)
  • Creating a new device file and Station
  • Extract Fault Data Record

Training and Placement

After passing the online test of 20 days training. we will send you on onsite training for 3-6 months in the field of Energy/Transmission& Distribution as an Relay Engineer, Testing and Commissioning Engineer, Protection Engineer, Service Engineer after the training period completion.

Training and after Training Period:

  • Training Period – 20 days
  • Onsite training Period – 3-6 months
  • Salary after training – 10000/month to 15000/ month based on performance during the training
  • Functional Area – Engineering Design, R&D, Application Engineering, Sales & Service
  • Industry Type – Smart Gird, Industrial Products, Heavy Machinery, Transmission and Distribution
  • Qualification – Degree/Diploma (Electrical/EC/IC/EEE) 2018/19 Pass out

Limited Seats | Join the Batch Now